CN211414127U - Auxiliary welding device for reinforcing plate of steel-concrete wind power generation tower - Google Patents

Abstract

The utility model provides a steel-concrete wind power generation pylon reinforcing plate welding auxiliary device belongs to wind power generation technical field for solve current wind power generation pylon reinforcing plate and hang and get the unstable technical problem of welding. The auxiliary welding device for the reinforced concrete wind power generation tower reinforcing plate comprises a support, wherein an adjusting mechanism is arranged in the support in a sliding mode, an extending mechanism is arranged on the side face of the adjusting mechanism, and a clamping mechanism is arranged below the extending mechanism; the clamping mechanism of the auxiliary welding device for the reinforced plate of the reinforced concrete wind power generation tower adopts the matching of the rotating motor, the transmission rod and the clamping block, and can clamp the lifting hook of the reinforced plate, so that the lifting welding of the reinforced plate of the wind power generation tower is more stable; the adjusting mechanism is matched with the lifting screw rod through a lifting motor, an adjusting screw rod, an adjusting motor and the lifting screw rod, so that the clamping blocks are driven to be transversely and longitudinally adjusted, and the clamping mechanism can be aligned to the lifting hook of the reinforcing plate.

Description

Auxiliary welding device for reinforcing plate of steel-concrete wind power generation tower

Technical Field

The utility model belongs to the technical field of wind power generation, a welding auxiliary device, especially a steel-concrete wind power generation pylon reinforcing plate welding auxiliary device are related to.

Background

Wind power generation is the most mature technology, the most scale development condition and the generation mode with good development prospect in the utilization of renewable energy sources at present, and is the national encouragement to develop the sunrise industry. China has abundant wind power resources and good development prospect. The wind energy resource enrichment area is mainly in northwest, northeast of China, northeast and southeast coastal area, therefore the potentiality of developing wind-powered electricity generation is huge, wind power generation tower section of thick bamboo needs the welding reinforcing plate, adopt two V-arrangement grooves during the reinforcing plate welding, the interface size of welding seam reduces, the quantity of depositing the metal reduces, and the symmetry in the welding seam thickness direction, the shrink direction is unanimous, can offset partly deformation each other, so the reinforcing plate need the crane or the driving hang get the welding, but rock easily when hanging and get the welding reinforcing plate.

The welding of the existing wind power tower reinforcing plate can only provide a standing platform for welding personnel, and the welding auxiliary effect is low, so that an auxiliary device which can stably hoist and weld the wind power tower reinforcing plate is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at having above-mentioned problem to current technique, provided a steel reinforced concrete wind power generation pylon reinforcing plate welding auxiliary device, the technical problem that the device will solve is: how to make the hoisting welding of the wind power generation tower reinforcing plate more stable.

The purpose of the utility model can be realized by the following technical proposal:

the utility model provides a reinforced concrete wind power generation pylon reinforcing plate welding auxiliary device, includes the support, the inside slip of support is provided with adjustment mechanism, and adjustment mechanism's side is provided with the mechanism of extending, and the below of extending the mechanism is provided with to press from both sides gets the mechanism.

The utility model discloses a theory of operation is: on placing the wind power generation pylon with the support, adjust through adjustment mechanism and press from both sides the transverse position of getting the mechanism, make its hanging of aiming at the reinforcing plate get the couple, the extension mechanism will press from both sides and get the mechanism and stretch out, press from both sides and get the mechanism and press from both sides the hook tightly to hanging, fix the hanging of reinforcing plate and get the hook, the mechanism descends is got to rethread adjustment mechanism drive clamp, it is more stable to make the reinforcing plate hang and get the welding, make the V type groove of reinforcing plate stable just to the V-arrangement groove top at wind power generation tower section of thick bamboo opening part, thereby make things convenient for the welding.

The support is characterized in that a plurality of supporting rods are fixed below the support, universal wheels are fixed below the supporting rods, a plurality of locking rods are fixed below the support, electric push rods are fixed on the side faces of the locking rods, rubber plates are fixed at the end portions of the electric push rods, and adjusting chutes are formed in the upper portion of the support.

The structure more than adopting, bracing piece and universal wheel provide the support for the support, and locking lever and electric putter can extrude wind power generation pylon to fix on wind power generation pylon, the rubber slab can be applicable to different pipeline radians.

The adjusting mechanism comprises a lifting motor and an adjusting motor, the lifting motor is fixed above the supporting rod, a lifting lead screw is fixed on an output shaft of the lifting motor, the lifting lead screw rotates to be arranged in the lifting groove, a sliding rod is connected to the lifting lead screw in a threaded manner, the sliding rod slides to be arranged in the adjusting sliding groove, the lifting groove is formed in the side face of the sliding rod, the adjusting motor is fixed on the side face of the support, an adjusting lead screw is fixed on the output shaft of the adjusting motor, and the adjusting lead screw rotates to be arranged in the adjusting sliding groove.

Structure more than adopting, accommodate motor passes through the output shaft and drives accommodate the lead screw and rotate to the horizontal position of mechanism is got to the regulation clamp, makes its hanging of aiming at the reinforcing plate get the couple, and elevator motor drives the lift lead screw through the output shaft and rotates, thereby drives the clamp and gets the mechanism and descend, makes the reinforcing plate hang and gets the welding more stable, thereby makes things convenient for the welding.

The stretching mechanism comprises a stretching sliding block, the end part of the stretching sliding block is in threaded connection with the lifting screw rod, the end part of the stretching sliding block is located in the lifting groove, a contraction block is arranged below the stretching sliding block in a sliding mode, and a locking screw rod is arranged above the stretching sliding block.

By adopting the structure, the contraction block is extended in a sliding manner, the clamping mechanism is driven to clamp the lifting hook of the reinforcing plate, and then the locking screw rod is rotated to fix the contraction block.

The clamping mechanism comprises an installation box, a rotating block and two rotating rods, the installation box is fixed below the shrinkage block, the rotating block and the two rotating rods are all rotated to be arranged inside the installation box, the two rotating rods are located in the middle of the bottom of the installation box, a rotating motor is fixed above the rotating block, the rotating motor is fixed on the box wall of the installation box, a transmission rod is connected to the upper portion of one end of the rotating block in a rotating mode, a transmission rod is connected to the lower portion of the other end of the rotating block in a rotating mode, the end portion of the transmission rod is connected with a clamping block, the clamping block is arranged on the rotating rods in a rotating mode, and the end portion of.

By adopting the structure, the rotating motor drives the rotating block to rotate through the output shaft, the rotating block drives the transmission rod to move, and the transmission rod drives the clamping block to clamp.

Compared with the prior art, this steel-concrete wind power generation pylon reinforcing plate welding auxiliary device has following advantage:

1. the clamping mechanism is matched with the clamping block by adopting a rotating motor, a transmission rod and the clamping block, and can clamp the lifting hook of the reinforcing plate, so that the lifting and welding of the reinforcing plate of the wind power generation tower are more stable;

2. the adjusting mechanism adopts a lifting motor, an adjusting screw rod, an adjusting motor and a lifting screw rod to be matched, so that the clamping block is driven to be adjusted transversely and longitudinally, and the clamping mechanism can be aligned to the lifting hook of the reinforcing plate;

3. the extension mechanism adopts the cooperation of an extension sliding block, a contraction block and a locking screw rod, and can be driven to extend, so that the clamping mechanism can clamp the hanging hook of the reinforcing plate.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of the left side of the utility model;

fig. 4 is a schematic view of the internal structure of the clamping mechanism of the present invention;

FIG. 5 is a schematic diagram of a right side perspective structure of the present invention;

in the figure: 1-adjusting mechanism, 101-lifting motor, 102-adjusting screw rod, 103-adjusting motor, 104-lifting screw rod, 105-sliding rod, 106-lifting groove, 2-clamping mechanism, 201-rotating motor, 202-transmission rod, 203-installation box, 204-rotating rod, 205-clamping block, 206-rotating block, 3-bracket, 301-supporting rod, 302-locking rod, 303-electric push rod, 304-adjusting sliding groove, 305-locking rod, 4-extending mechanism, 401-extending sliding block, 402-contracting block and 403-locking screw rod.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1-5, the embodiment provides an auxiliary welding device for a reinforced concrete wind power generation tower reinforcing plate, which includes a support 3, an adjusting mechanism 1 is slidably disposed inside the support 3, an extending mechanism 4 is disposed on a side surface of the adjusting mechanism 1, and a clamping mechanism 2 is disposed below the extending mechanism 4; on placing wind power generation pylon with support 3, press from both sides the horizontal position of getting mechanism 2 through adjustment mechanism 1 regulation, make its hanging of aiming at the reinforcing plate get the couple, extension mechanism 4 will press from both sides and get mechanism 2 and stretch out, press from both sides and get mechanism 2 and press from both sides the couple tightly of getting to hanging, it is fixed to the hanging of reinforcing plate to get the couple, it descends to drive to press from both sides the mechanism 2 through adjustment mechanism 1, it is more stable to make the reinforcing plate hang to get the welding, make the V type groove of reinforcing plate stable just to the V-arrangement groove top at wind power generation tower section of thick bamboo opening part, thereby make things convenient for the welding.

A plurality of support rods 301 are fixed below the support 3, universal wheels are fixed below the support rods 301, a plurality of locking rods 302 are fixed below the support 3, electric push rods 303 are fixed on the side surfaces of the locking rods 302, rubber plates are fixed at the end parts of the electric push rods 303, and an adjusting chute 304 is formed above the support 3; the support rods 301 and the universal wheels provide support for the support 3, the locking rods 305 and the electric push rods 303 can extrude the wind power generation tower to be fixed on the wind power generation tower, and the rubber plates can be suitable for different pipe radians.

The adjusting mechanism 1 comprises a lifting motor 101 and an adjusting motor 103, the lifting motor 101 is fixed above a support rod 301, a lifting screw rod 104 is fixed on an output shaft of the lifting motor 101, the lifting screw rod 104 is rotatably arranged inside a lifting groove 106, a sliding rod 105 is in threaded connection with the lifting screw rod 104, the sliding rod 105 is slidably arranged inside an adjusting sliding groove 304, the lifting groove 106 is formed in the side surface of the sliding rod 105, the adjusting motor 103 is fixed on the side surface of the support 3, an adjusting screw rod 102 is fixed on the output shaft of the adjusting motor 103, and the adjusting screw rod 102 is rotatably arranged inside the adjusting sliding groove 304; adjusting motor 103 drives accommodate the lead screw 102 through the output shaft and rotates to the horizontal position of mechanism 2 is got in the regulation clamp, makes its hanging of aiming at the reinforcing plate get the couple, and elevator motor 101 drives lift lead screw 104 through the output shaft and rotates, thereby drives to press from both sides and gets mechanism 2 and descend, makes the reinforcing plate hang and gets the welding more stable, thereby makes things convenient for the welding.

The extension mechanism 4 comprises an extension sliding block 401, the end part of the extension sliding block 401 is in threaded connection with the lifting screw rod 104, the end part of the extension sliding block 401 is positioned in the lifting groove 106, a contraction block 402 is arranged below the extension sliding block 401 in a sliding mode, and a locking screw 403 is arranged above the extension sliding block 401; the contraction block 402 is slid and extended to drive the clamping mechanism 2 to clamp the lifting hook of the reinforcing plate, and then the locking screw 403 is rotated to fix the contraction block 402.

The clamping mechanism 2 comprises an installation box 203, a rotating block 206 and two rotating rods 204, the installation box 203 is fixed below a contraction block 402, the rotating block 206 and the two rotating rods 204 are rotatably arranged inside the installation box 203, the two rotating rods 204 are positioned in the middle of the bottom of the installation box 203, a rotating motor 201 is fixed above the rotating block 206, the rotating motor 201 is fixed on the wall of the installation box 203, a transmission rod 202 is rotatably connected above one end of the rotating block 206, a transmission rod 202 is rotatably connected below the other end of the rotating block 206, the end part of the transmission rod 202 is connected with a clamping block 205, the clamping block 205 is rotatably arranged on the rotating rod 204, and the end part of the clamping block 205 penetrates through and extends out of the installation box 203; the rotating motor 201 drives the rotating block 206 to rotate through the output shaft, the rotating block 206 drives the transmission rod 202 to move, and the transmission rod 202 drives the clamping block 205 to clamp.

The utility model discloses a theory of operation:

the crane hangs the reinforcing plate to the opening of the wind power tower through the hanging hook on the reinforcing plate, the support rod 301 and the universal wheel are placed on the wind power tower, the support rod 301 and the universal wheel provide support for the brackets 3, the two brackets 3 are mutually connected and fixed, the hanging cable of the reinforcing plate is limited between the two brackets 3, the adjusting motor 103 drives the adjusting screw rod 102 to rotate through the output shaft, thereby driving the sliding rod 105 to slide, the sliding rod 105 drives the extension sliding block 401 and the contraction block 402 to move, the contraction block 402 drives the installation box 203 to move, so that the installation box 203 is aligned with the hanging hook of the reinforcing plate, the contraction block 402 slides and extends, the installation box 203 is driven to be close to the hanging hook of the reinforcing plate, the rotating motor 201 drives the rotating block 206 to rotate through the output shaft, the rotating block 206 drives the transmission rod 202 to move, the transmission rod 202 drives the clamping block 205 to clamp tightly, and then the locking, fixing shrinkage block 402, descending motor 101 drives lift lead screw 104 through the output shaft and rotates, thereby drive install bin 203 and descend, it is more stable to make the reinforcing plate hang and get the welding, make the V-arrangement groove of reinforcing plate stable just to the V-arrangement groove top at wind power generation tower section of thick bamboo opening part, thereby make things convenient for the welding, after the welding is accomplished, rotate motor 201 reversal, thereby relieve and get the locking of couple to hanging, later with adjustment mechanism 1 and extension mechanism 4 recovery normal position, relieve the fixed of two supports 3 again, remove steel-concrete wind power generation tower reinforcing plate welding auxiliary device.

In conclusion, the clamping mechanism 2 adopts the matching of the rotating motor 201, the transmission rod 202 and the clamping block 205, and can clamp the lifting hook of the reinforcing plate, so that the lifting welding of the reinforcing plate of the wind power generation tower is more stable; the adjusting mechanism 1 adopts the matching of a lifting motor 101, an adjusting screw rod 102, an adjusting motor 103 and a lifting screw rod 104, so as to drive a clamping block 205 to carry out transverse and longitudinal adjustment, and the clamping mechanism 2 can be aligned to a lifting hook of a reinforcing plate; the extension mechanism 4 adopts the cooperation of an extension sliding block 401, a contraction block 402 and a locking screw 403, and can drive the clamp mechanism 2 to extend, so that the clamp mechanism 2 can clamp the hanging hook of the reinforcing plate.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (4)

1. The utility model provides a reinforced concrete wind power generation tower reinforcing plate welding auxiliary device, includes support (3), a serial communication port, the below of support (3) is fixed with a plurality of bracing pieces (301), be provided with adjustment mechanism (1) on bracing piece (301), the side of adjustment mechanism (1) is provided with extends mechanism (4), the below of extending mechanism (4) is provided with presss from both sides and gets mechanism (2), the below of bracing piece (301) all is fixed with the universal wheel, the below of support (3) still is fixed with a plurality of locking levers (302), the side of locking lever (302) all is fixed with electric putter (303), the tip of electric putter (303) all is fixed with the rubber slab, regulation spout (304) have been seted up to the top of support (3).

2. The welding auxiliary device for the reinforcing plate of the steel-concrete wind power tower according to claim 1, the adjusting mechanism (1) is characterized by comprising a lifting motor (101) and an adjusting motor (103), wherein the lifting motor (101) is fixed above a supporting rod (301), a lifting screw rod (104) is fixed on an output shaft of the lifting motor (101), the lifting screw rod (104) is rotatably arranged in a lifting groove (106), a sliding rod (105) is connected to the lifting screw rod (104) in a threaded manner, the sliding rod (105) is slidably arranged in an adjusting groove (304), the lifting groove (106) is formed in the side surface of the sliding rod (105), the adjusting motor (103) is fixed on the side surface of a support (3), an adjusting screw rod (102) is fixed on the output shaft of the adjusting motor (103), and the adjusting screw rod (102) is rotatably arranged in the adjusting groove (304).

3. The welding auxiliary device for the reinforced steel-concrete wind power tower reinforcing plate according to claim 2, wherein the extension mechanism (4) comprises an extension sliding block (401), the end of the extension sliding block (401) is in threaded connection with the lifting screw rod (104), the end of the extension sliding block (401) is located inside the lifting groove (106), a contraction block (402) is arranged below the extension sliding block (401) in a sliding mode, and a locking screw rod (403) is arranged above the extension sliding block (401).

4. The welding auxiliary device for the reinforced concrete wind power generation tower reinforcing plate according to claim 3, wherein the clamping mechanism (2) comprises an installation box (203), a rotating block (206) and two rotating rods (204), the installation box (203) is fixed below the contraction block (402), the rotating block (206) and the two rotating rods (204) are rotatably arranged inside the installation box (203), the two rotating rods (204) are positioned in the middle of the bottom of the installation box (203), a rotating motor (201) is fixed above the rotating block (206), the rotating motor (201) is fixed on the wall of the installation box (203), a transmission rod (202) is rotatably connected above one end of the rotating block (206), a transmission rod (202) is rotatably connected below the other end of the rotating block (206), a clamping block (205) is connected at the end of the transmission rod (202), and the clamping block (205) is rotatably arranged on the installation box (204), and the end part of the clamping block (205) penetrates out of the mounting box (203).

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